Sistema IoT de Alerta para Medicamentos Controlados

Elizabeth  Bruno; Savio  Rabelo; Sandro  Juca

Elizabeth Bruno IFCE
Savio Rabelo IFCE
Sandro Juca IFCE

Abstract

This paper aims to analyze and describe the basic assembly of a prototype for a Alert IoT (Internet of Things) System for usage of Controlled Medicine. The system is composed by three components: the first one is a tabletop container with six drawers, each one with its own medicines and sensors. The second one is a online module which one allows the user to schedule the times he wants to take the medicine kept in a certain drawer. Finally, the third one component is a circuit microcontrolled by an ESP8266 that is able to fire two alarms: a visual one, connected to the drawer whose time the user scheduled in, and a sound alarm in the form of a beep. The proposed system was implemented in a real situation an it works as expected.

References

Blanchon, B. (2015). C++ json library for iot, simple and efficient. Disponível em https://github.com/bblanchon/ArduinoJson. Acesso em abril de 2018.

de Oliveira, S. (2017). Internet das Coisas com ESP8266, Arduino e Raspberry Pi. Novatec Editora.

dos Santos, N. M. L. (2013). Desenvolvimento de um dispensador automático de medicamentos.

Espressif (2018). Esp8266ex datasheet. Disponível em https://www.espressif.com/sites/default/files/documentation/0a-esp8266ex_datasheet_en.pdf. Acesso em março de 2018.

Kodali, R. K. and Soratkal, S. (2016). Mqtt based home automation system using esp8266. In Humanitarian Technology Conference (R10-HTC), 2016 IEEE Region 10, pages 1–5. IEEE.

Schemberger, M. (2016). Dispensador de medicamentos automático microcontrolado. Disponível em http://www.faculdadespontagrossa.com.br/revistas/index.php/technoeng/article/download/197/165. Acesso em abril de 2018.

Schwartz, M. (2016). Internet of Things with ESP8266. Packt Publishing Ltd.

Singh, P. and Saikia, S. (2016). Arduino-based smart irrigation using water flow sensor, soil moisture sensor, temperature sensor and esp8266 wifi module. In Humanitarian Technology Conference (R10-HTC), 2016 IEEE Region 10, pages 1–4. IEEE.

Skraba, A., Kolozvari, A., Kofjac, D., Stojanovic, R., Stanovov, V., and Semenkin, E. (2016). Streaming pulse data to the cloud with bluetooth le or nodemcu esp8266. In Embedded Computing (MECO), 2016 5th Mediterranean Conference on, pages 428– 431. IEEE.

Stoffregen, P. (2016). Arduino time library. Disponível em https://github.com/PaulStoffregen/Time. Acesso em abril de 2018.

Thaker, T. (2016). Esp8266 based implementation of wireless sensor network with linux based web-server. In Colossal Data Analysis and Networking (CDAN), Symposium on, pages 1–5. IEEE.